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Quantum simulator to emulate lower-dimensional molecular structure

Emil Sierda, Xiaochun Huang, Danis I. Badrtdinov, Brian Kiraly, Elze J. Knol, Gerrit C. Groenenboom, M. I. Katsnelson, Malte Rösner, Daniel Wegner, Alexander A. Khajetoorians

2023Science33 citationsDOIOpen Access PDF

Abstract

Bottom-up quantum simulators have been developed to quantify the role of various interactions, dimensionality, and structure in creating electronic states of matter. Here, we demonstrated a solid-state quantum simulator emulating molecular orbitals, based solely on positioning individual cesium atoms on an indium antimonide surface. Using scanning tunneling microscopy and spectroscopy, combined with ab initio calculations, we showed that artificial atoms could be made from localized states created from patterned cesium rings. These artificial atoms served as building blocks to realize artificial molecular structures with different orbital symmetries. These corresponding molecular orbitals allowed us to simulate two-dimensional structures reminiscent of well-known organic molecules. This platform could further be used to monitor the interplay between atomic structures and the resulting molecular orbital landscape with submolecular precision.

Topics & Concepts

Molecular orbitalScanning tunneling microscopeAtomic orbitalChemical physicsElectronic structureQuantumPhysicsMolecular physicsChemistryMoleculeAtomic physicsNanotechnologyMaterials scienceComputational chemistryQuantum mechanicsElectronQuantum and electron transport phenomenaAdvanced Chemical Physics StudiesMachine Learning in Materials Science
Quantum simulator to emulate lower-dimensional molecular structure | Litcius